1 Factoring Isotope Patterns Chlorine and Bromine with nitrogen Ray A. Gross, Jr. Prince George’s Community College
Factoring Isotope Patterns Chlorine and Bromine with nitrogen
Jan 14, 2016
Factoring Isotope Patterns Chlorine and Bromine with nitrogen. Ray A. Gross, Jr. Prince George’s Community College. Outline. Develop an equation for the isotope patterns of Br m Cl n compounds Show the isotope-patterns equal two independent factors: Br and Cl factors - PowerPoint PPT Presentation
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1
Factoring Isotope Patterns Chlorine and Bromine
withnitrogen
Ray A. Gross, Jr.Prince George’s Community College
2
Outline
• Develop an equation for the isotope patterns of BrmCln compounds
• Show the isotope-patterns equal two independent factors: Br and Cl factors
• Show that the chlorine factor and n are evident by the first term in the isotope pattern.
3
156
Br m = 1T = 2
1:1
100 61 59
100 98
Brm
4
Cl
Cln
n = 1T = 2
52 100 31
100 32
3:1
112
5
Br
Cl
BrmCln
m = 1 n = 1 T = 3
77 100 24
78 100 24
3:4:1
190
6
Bromine Binomial
• Ratio of Br-79 to Br-81 = 1:1
• (a + b)m for Brm
• (a + b)1 = a + b = 1:1
• (a + b)2 = a2 + 2ab + b2 = 1:2:1
7
Chlorine Binomial
• Ratio of Cl-35 to Cl-37 = 3:1
• (3a + b)n for Cln
• (3a + b)1 = 3a + b = 3:1
• (3a + b)2 = 9a2 + 6ab + b2 = 9:6:1
8
Ideal Model
(1a + 1b)m(3a + 1b)n
Br1Cl1
3a2 + 4ab + 1b2 = 3:4:1
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Isotope Pattern (I.P.) equals a product of Br and Cl factors
I.P. = (1a + 1b)m(3a + 1b)n
3:4:1 = (1:1)1(3:1)1
10
Premise
• Because an isotope pattern for a BrmCln
compound is composed of the product of a bromine factor and a chlorine factor, the pattern should be divisible by either factor to give the other factor.
11
Question
• For 27: 81: 90: 46: 11: 1
• What factor do we divide by?
12
Bromine and Chlorine Factors
m or n Bromine
(1:1)m
Chlorine
(3:1)n
Terms
T
1 1:1 3:1 2
2 1:2:1 9:6:1 3
3 1:3:3:1 27:27:9:1 4
4 1:4:6:4:1 81:108:54:12:1 5
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Results
• The lead term in a normalized pattern equals 3n.
• The value of n determines the chlorine factor.
• T = m + n + 1, or m = T – (n + 1)
14
9:15:7:1 = (9:6:1) (1:1)m
1: 1 9: 6 : 19: 6 :1) 9: 15: 7: 1 1:1) 9: 15: 7 : 1 9: 6: 1 9 : 9 9: 6: 1 6 : 7 9: 6: 1 6 : 6 1 : 1 1 : 1
15
T = m + n + 1
_ _ _ 1: 2: 1
27: 81: 90: 46: 11: 1
27: 27: 9: 1 _ _
16
Br2Cl3
27 Cl Cl Cl Br Br
27: 81: 90: 46: 11: 1
17
224
10:17:7:1
62 100 45 6Unknown
18
224
10:17:7:1
62 100 45 6
UnknownBr
10:17: 7 : 1 9:Cl:Cl:Br
224149 = Br1Cl2 75 = benzene residue
Cl
Cl
Mass spectrum of 1-bromo-2,4-dichlorobenzene
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M = 283
85 190 132 26
3:7: 5:1
Unknown
20
NH2
M = 283 = N1
Figure 4. Mass spectrum of 2,6-dibromo-4-chloroaniline.
BrBr
Cl
283207 = Br2Cl1N1 76 = benzene residue
85 190 132 26
3:7: 5:13 : 7 : 5 : 13 Cl Br BrUnknown
21
Summary
• The lead number in a normalized isotope pattern of an unknown BrmCln
compound uniquely defines n and the corresponding chlorine factor within the pattern.
• Given n, the number of bromine atoms can be found from the number of terms T in the pattern.
22
Acknowledgements
• Junhua Yan’s Isotope Pattern Calculator http://www.geocities.com/junhuayan/pattern.htm (accessed May 2003).
• Institute of Advanced Industrial Science and Technology; Tsukuba, Ibaraki, Japan
SDBSWeb: http://www.aist.go.jp/RIODB/SDBS/ (accessed May 2003).
• NSF Grant: DUE-0202431
• Submitted to The Chemical Educator
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